/* $Id$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ #include #include #include "../share/types.h" #include "../share/alloc.h" #include "../share/lset.h" #include "../share/aux.h" #include "../share/global.h" #include "../share/debug.h" #include "cs.h" #include "cs_avail.h" #include "cs_alloc.h" #include "cs_aux.h" #include "cs_debug.h" #include "cs_profit.h" #include "cs_partit.h" #include "cs_debug.h" STATIC void dlink(line_p l1, line_p l2) { /* Doubly link the lines in l1 and l2. */ if (l1 != (line_p) 0) l1->l_next = l2; if (l2 != (line_p) 0) l2->l_prev = l1; } STATIC void remove_lines(line_p first, line_p last) { /* Throw away the lines between and including first and last. * Don't worry about any pointers; they (must) have been taken care of. */ register line_p lnp, next; last->l_next = (line_p) 0; /* Delimit the list. */ for (lnp = first; lnp != (line_p) 0; lnp = next) { next = lnp->l_next; oldline(lnp); } } STATIC bool contained(occur_p ocp1, occur_p ocp2) { /* Determine whether ocp1 is contained within ocp2. */ register line_p lnp, next; for (lnp = ocp2->oc_lfirst; lnp != (line_p) 0; lnp = next) { next = lnp != ocp2->oc_llast ? lnp->l_next : (line_p) 0; if (lnp == ocp1->oc_llast) return TRUE; } return FALSE; } STATIC void delete(occur_p ocp, avail_p start) { /* Delete all occurrences that are contained within ocp. * They must have been entered in the list before start: * if an expression is contained with an other, its operator line * appears before the operator line of the other because EM-expressions * are postfix. */ register avail_p ravp; register Lindex i, next; for (ravp = start; ravp != (avail_p) 0; ravp = ravp->av_before) { for (i = Lfirst(ravp->av_occurs); i != (Lindex) 0; i = next) { next = Lnext(i, ravp->av_occurs); if (contained(occ_elem(i), ocp)) { OUTTRACE("delete contained occurrence", 0); # ifdef TRACE SHOWOCCUR(occ_elem(i)); # endif oldoccur(occ_elem(i)); Lremove(Lelem(i), &ravp->av_occurs); } } } } STATIC void complete_aar(line_p lnp, int instr, valnum descr_vn) { /* Lnp is an instruction that loads the address of an array-element. * Instr tells us what effect we should achieve; load (instr is op_lar) * or store (instr is op_sar) this array-element. Descr_vn is the * valuenumber of the address of the descriptor of this array. * We append a loi or sti of the correct number of bytes. */ register line_p lindir; lindir = int_line(array_elemsize(descr_vn)); lindir->l_instr = instr == op_lar ? op_loi : op_sti; dlink(lindir, lnp->l_next); dlink(lnp, lindir); } STATIC void complete_dv_as_rm(line_p lnp, avail_p avp, bool first) { /* Complete a / b as a % b = a - b * (a / b). For the first * occurrence, lnp must stack q, where q = a / b. We prepend a * DUP to change postfix a b / into a b a b /, then append a * MLI/MLU and SBI/SBU to make a b a b / * -. * * For later occurences, lnp must stack a b q. We append the * MLI/MLU and SBI/SBU. */ line_p dv, dup, ml, sb; offset size; bool s; size = avp->av_size; s = (avp->av_instr == (byte) op_dvi); assert(s || avp->av_instr == (byte) op_dvu); if (first) { /* Prepend our DUP to avp->av_found, to get before the * DVI if lnp points to the LOL in DVI STL LOL. */ dup = int_line(2 * size); dup->l_instr = op_dup; dv = avp->av_found; dlink(dv->l_prev, dup); dlink(dup, dv); } ml = int_line(size); sb = int_line(size); ml->l_instr = (s ? op_mli : op_mlu); sb->l_instr = (s ? op_sbi : op_sbu); dlink(sb, lnp->l_next); dlink(ml, sb); dlink(lnp, ml); } STATIC void replace(occur_p ocp, offset tmp, avail_p avp) { /* Replace the lines in the occurrence in ocp by a load of the * temporary with offset tmp. */ register line_p lol, first, last; register int instr; assert(avp->av_size == ws || avp->av_size == 2*ws); first = ocp->oc_lfirst; last = ocp->oc_llast; lol = int_line(tmp); lol->l_instr = avp->av_size == ws ? op_lol : op_ldl; dlink(lol, last->l_next); if (first->l_prev == (line_p) 0) ocp->oc_belongs->b_start = lol; dlink(first->l_prev, lol); instr = INSTR(last); switch (avp->av_instr & 0377) { case op_aar: /* There may actually be a LAR or a SAR * instruction; in that case we have to * complete the array-instruction. */ if (instr != op_aar) complete_aar(lol, instr, avp->av_othird); break; case op_dvi: if (instr == op_rmi) complete_dv_as_rm(lol, avp, FALSE); break; case op_dvu: if (instr == op_rmu) complete_dv_as_rm(lol, avp, FALSE); break; } /* Throw away the by now useless lines. */ remove_lines(first, last); } STATIC void append(avail_p avp, offset tmp) { /* Avp->av_found points to a line with an operator in it. This * routine emits a sequence of instructions that saves the result * in a local with offset tmp. In most cases we just append * avp->av_found with stl/sdl tmp and lol/ldl tmp depending on * avp->av_size. If however the operator is an aar contained * within a lar or sar, we must first generate the aar. */ register line_p stl, lol; register int instr; assert(avp->av_size == ws || avp->av_size == 2*ws); stl = int_line(tmp); stl->l_instr = avp->av_size == ws ? op_stl : op_sdl; lol = int_line(tmp); lol->l_instr = avp->av_size == ws ? op_lol : op_ldl; dlink(lol, avp->av_found->l_next); dlink(stl, lol); dlink(avp->av_found, stl); instr = INSTR(avp->av_found); switch (avp->av_instr & 0377) { case op_aar: if (instr != op_aar) { complete_aar(lol, instr, avp->av_othird); avp->av_found->l_instr = op_aar; } break; case op_dvi: if (instr == op_rmi) { complete_dv_as_rm(lol, avp, TRUE); avp->av_found->l_instr = op_dvi; } break; case op_dvu: if (instr == op_rmu) { complete_dv_as_rm(lol, avp, TRUE); avp->av_found->l_instr = op_dvu; } break; } } STATIC void set_replace(avail_p avp, offset tmp) { /* Avp->av_occurs is now a set of occurrences, each of which will be * replaced by a reference to a local. * Each time we eliminate an expression, we delete from our * list those expressions that are physically contained in them, * because we cannot eliminate them again. */ register Lindex i; register lset s = avp->av_occurs; for (i = Lfirst(s); i != (Lindex) 0; i = Lnext(i, s)) { OUTVERBOSE("eliminate duplicate", 0, 0); SHOWOCCUR(occ_elem(i)); Scs++; delete(occ_elem(i), avp->av_before); replace(occ_elem(i), tmp, avp); } } STATIC int reg_score(entity_p enp) { /* Enp is a local that will go into a register. * We return its score upto now. */ assert(is_regvar(enp->en_loc)); return regv_arg(enp->en_loc, 4); } STATIC line_p gen_mesreg(offset off, avail_p avp, proc_p pp) { /* Generate a register message for the local that will hold the * result of the expression in avp, at the appropriate place in * the procedure in pp. */ register line_p reg; reg = reg_mes(off, (short) avp->av_size, regtype(avp->av_instr), 0); appnd_line(reg, pp->p_start->b_start); return reg; } STATIC void change_score(line_p mes, int score) { /* Change the score in the register message in mes to score. */ register arg_p ap = ARG(mes); ap = ap->a_next; /* Offset. */ ap = ap->a_next; /* Size. */ ap = ap->a_next; /* Type. */ ap = ap->a_next; /* Score. */ ap->a_a.a_offset = score; } void eliminate(proc_p pp) { /* Eliminate costly common subexpressions within procedure pp. * We scan the available expressions in - with respect to time found - * reverse order, to find largest first, e.g. `A + B + C' before * `A + B'. * We do not eliminate an expression when the size * is not one of ws or 2*ws, because then we cannot use lol or ldl. * Code is appended to the first occurrence of the expression * to store the result into a local. */ register avail_p ravp; register int score; register offset tmp; register line_p mes; for (ravp = avails; ravp != (avail_p) 0; ravp = ravp->av_before) { if (ravp->av_size != ws && ravp->av_size != 2*ws) continue; if (ravp->av_saveloc == (entity_p) 0) { /* We save it ourselves. */ score = 2; /* Stl and lol. */ } else { score = reg_score(ravp->av_saveloc); } if (desirable(ravp)) { score += Lnrelems(ravp->av_occurs); OUTTRACE("temporary local score %d", score); if (ravp->av_saveloc != (entity_p) 0) { tmp = ravp->av_saveloc->en_loc; mes = find_mesreg(tmp); OUTVERBOSE("re-using %ld(LB)", tmp, 0); } else { tmp = tmplocal(pp, ravp->av_size); mes = gen_mesreg(tmp, ravp, pp); append(ravp, tmp); } change_score(mes, score); set_replace(ravp, tmp); } } }